An ultrasound diagnostic equipment has at least one rechargeable ultrasound probe with a built-in battery, and a diagnostic equipment body connected to the at least one ultrasound probe in a wireless manner, wherein the diagnostic equipment body includes a power supply unit which supplies power to the battery of the at least one ultrasound probe, and a power supply controller which causes the battery of the at least one ultrasound probe to selectively perform refresh charging and top-up charging using the power supply unit on the basis of power supply information to the battery of the at least one ultrasound probe and the examination situation in the diagnostic equipment body.

The present invention relates to an ultrasound image acquisition device (46) for use together with a console device (16, 18) to form an ultrasound imaging system (10) and a corresponding method. The ultrasound image acquisition device (46) particularly comprises a recognition device for recognizing an operating mode of the ultrasound image acquisition device, wherein the recognition device is configured to recognize the operating mode depending on a type of the console device (16, 18) and/or an applicable communication standard of the interface (50). By this, a dual purpose image acquisition probe (14) may be provided.

An apparatus capable of connecting a connector of ultrasonic probe includes a connected part, a wall part and a vent hole. The connected part is provided in a housing and is configured to be capable of connecting a connector of ultrasonic probe. The wall part is provided in a location to surround side faces of the connector in a state of being connected to the connected part. The vent hole is provided between the connected part and the wall part so as to pass through from outside to inside of the housing.

Provided are an ultrasound probe and an operating method of the ultrasound probe which can select a power transmission channel and/or a wireless power transmission mode that are most appropriate in an environment in which power transmission channels exist. The operating method of the ultrasound probe includes operations of obtaining a plurality of pieces of information about power transmission channels; displaying a power transmission channel list, based on the plurality of pieces of information about the power transmission channels; selecting a power transmission channel from the power transmission channel list; and receiving wireless power that is transmitted via the selected power transmission channel.

A system and method for identifying a target probe from a plurality of probes collaborating with an examination device, where the system includes an identification element configured to be associated with the target probe, at least one probe-holder configured to be associated with the examination device and to support the target probe, a reader associated with the probe-holder and configured to communicate with the identification element of the target probe, and a signaling element configured to communicate with the reader and configured to emit a signal destined for a user of the system according to the communication between the reader and the target probe identification element.

Provided is a wireless ultrasound probe configured to detect a state in which the wireless ultrasound probe is detached from a charging terminal, causing supply of the charging power to the wireless ultrasound probe to be discontinued, and the wireless ultrasound probe is paired with the ultrasound diagnostic apparatus by using a wireless communication scheme when supply of the charging power is discontinued. Also provided are an ultrasound diagnostic apparatus and an operating method of the ultrasound diagnostic apparatus configured to be automatically paired with a wireless ultrasound probe in a state in which the wireless ultrasound probe is detached from a charging terminal of the ultrasound diagnostic apparatus, causing supply of the charging power to the wireless ultrasound probe to be discontinued.

Described here are methods and systems for the manipulation of ovarian tissues. The methods and systems may be used in the treatment of polycystic ovary syndrome (PCOS). The systems and methods may be useful in the treatment of infertility associated with PCOS.

A portable expansion unit controls safety-relevant functions of a medical device. The expansion unit has a retaining device to be adjusted to the size of a flat, portable operating unit of the medical device. The retaining device mechanically connects the expansion unit detachably with the portable operating unit. A communication module establishes a safety-related data connection with the medical device. This combines a mobile, portable consumer operating device, such as a tablet computer or smartphone, which does not fulfill any particular safety-related requirements, with an expansion unit, which permits the control of safety-relevant functions with the aid of a safety-related radio protocol.

A system (e.g., an ultrasound imaging system) is provided. The system includes an ultrasound probe having a cable, and an ultrasound probe holder configured to receive the ultrasound probe. The system further includes a housing supported by a base. The housing includes a connector port and a cable manage passage. The cable manage passage positioned at an upper end of the housing distal to the base. The cable extending through the cable manage passage and is attached to the connector port. The ultrasound probe holder is coupled to a front side of the housing.

A probe holder includes a casing and an elastic structure including an inner cover and a retainer unit. The retainer unit includes an enclosing wall, and a rib array protruding from an inner face of the enclosing wall. The rib array holds a cable end with a rear end of a probe head being supported by a support face of the inner cover.